If you eat processed foods — which most of us do — there's a good chance you've tasted something that was designed by a flavor chemist. But getting pre-packaged foods to taste exactly the way they do is no easy task. It's a process that requires everything from supertasting chemists to the sourcing of hundreds of complex ingredients. Here's how these flavor engineers make you keep coming back for more.

The flavor industry

Flavor engineering is a surprisingly secretive multi-billion dollar industry, whose in-house chemists work to create both natural and artificial flavorings that consumers find delicious and appealing. These chemists design various taste experiences by blending aromatic chemicals, essential oils, botanical extracts, essences, and whatever else it takes to create a specific kind of taste.

Advertisement

Companies like Givaudan and Cargill create and manufacturer flavors for a wide variety of foods, beverages, confections, pharmaceuticals (including chewable medications and liquid prescriptions), oral care products (like toothpaste and mouthwash), cosmetics (including lip balm), nutrition products (vitamins and sports gels), and even pet food. And in fact, the general principles they follow are very similar to what's done in the perfume industry.

In addition to creating flavors, they also have to ensure that their products are safe for human consumption (which includes preventing allergic reactions or avoiding toxicity), and that the foods can withstand various compositional changes brought about by cooking, freezing, and other forms of preparation.

Moreover, they have to create flavors that don't just make the end consumers happy — but their clients as well (they are typically outsourced by food manufacturers). Most of all, they also have to help the food companies make huge profits.

Flavor profiling

Flavor chemists do more than just mix compounds — they have to be supertasters as well. Many of them attend cooking clinics and follow the work of famous chefs. Moreover, they also have to know the in's and out's of taste — and that's a very complex set of sensory experiences.

About a quarter of the population of the world has super-powered tongues. They experience taste…
Read more Read more

Indeed, the sense of taste is a multifaceted physiological process. Working in conjunction with our sense of smell, our 100,000 taste buds elicit sensations of sweet, bitter, sour, salty, and umami (a Japanese word for a pleasant savory taste, but distinct from pure saltiness). The challenge for flavor chemists is to create the perfect mixture of compounds that hit all the right marks.

A company like Givaudan, a Swiss firm that employs nearly 9,000 people in 45 countries, has created thousands of flavors that are used in a variety of products. In order to come up with all these tastes, whether it be the mimicry of an existing flavor or something completely new, flavor chemists often work to modify existing aromas and tastes as opposed to creating abstract smells from scratch; they're basically trying to ‘improve' upon the original (what is often a requirement in processed or pre-packaged foods). Interestingly, the two most commonly simulated flavors are chicken and strawberry.

After finding something they like — say a delicious, ripe orange — flavorists extract the fruit's flavor molecules for further analysis (either by sourcing the vast scientific literature on the subject, or through lab techniques like gas chromatography and and mass spectrometry). They then go about the process of finding a way to simulate or improve upon the original taste.

For example, when designing fruit flavors, they try to create a bursting flavor sensation at the beginning, followed by a finish that doesn't linger. And fascinatingly, flavorists can create an incredibly diverse array of experiences from a single source; Givaudan has developed 750 flavors of orange, tangerine, and mandarins. Subtle variations include jammy, sweet, floral, seedy, and so on.

A little too tasty?

Flavorists also try to create foods that consumers crave. And in fact, in a recent interview with CBS, Givaudan employees did not deny that this is what they're trying to do — create food addictions. It's "a good word," they admitted, and that they're trying to develop "something that [consumers] want to go back for again and again."

And their work is serious business. Companies consider their formulas to be valuable intellectual property, hence their secretive nature — not to mention the fact that most food manufacturers would rather not have it known that most of their processed foods are flavored with a cornucopia of chemicals.

Mmmmm, isoamylacetate

And indeed, flavor chemists use a variety of compounds to create their formulas. A typical lab uses of 2,000 chemicals and 500 natural flavors — and it can take anywhere from 70 to 80 tries to get the flavor just right. Some formulas require upwards of hundreds of different notes.

When trying to simulate the taste of chocolate, for example, flavorists will use substances that individually taste and smell like potato chips, cooked meat, peaches, raw beef fat, cooked cabbage, human sweat, dirt and other distinctly un-chocolate-like aromas. And in fact, in some cases it can get quite weird; some strawberry and vanilla flavors are derived from the gland found in a beaver's backside.

Once the compounds have been selected, the chemists use a "flavor profile" to help them architect the taste they're trying to simulate. This profile is typically constructed with mathematical assistance, allowing the chemists to make the most minutest of adjustments — what's typically measured in parts per million (ppm). They also need to be sensitive to how all the various chemicals might react to one another, and whether the mixtures will lend themselves to cooking.

And in terms of the chemicals themselves, it's a veritable rainbow of possibilities.

The various compounds used include metabolites like acids, aldehydes, ketones, alcohols, esters, sulfur compounds, furans, phenols, terpenes, epoxides, and lactones — many of which are derived from various biosynthetic pathways.

Another common chemical that's used is ethyl butyrate. It's one of 30 compounds that are typically found in orange juice. This chemical, along with acetaldehyde, is what gives OJ its succulent quality. Other chemicals include butyric acid artificial and butyric acid natural. Isoamylacetate is typically used to mimic the taste of a banana, while methoxyfuraneol is used to simulate strawberries.